Miniature piano



April 90, 1940. w, SCHMMgL- 2.199.211

MINIATURE PIANO Filed Jan. 7, 1937 9 Sheets-Sheet 1 orzzzMsM April 30, 1940.

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9 Sheets-Sheet 4 Filed Jan. 7, 1957 V Ihvenfar:

April 30, 1940.

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April 30, 1940. w. SCH'IMMEL 2.199.211

MINIATURE PIANO Filed Jan. '7, 1957 9 Sheets-Sheet '9 IIIUIIIIIIIHIHIIIHIIII IIHI l\l|| I II I IIIIIIIIIIHIHIll llllllllllllllllll I I II III 1 muenzol: W1 36 11 5114: L4

Patented Apr. 30, 1940 UNITED STATES MINIATURE PIANO Wilhelm Schimmel, Brunswick, Germany, as-

signor of forty per cent to Max Wronker Flatow, London, England Application January 7, 1937, Serial No. 119,380

In Germany January 7, 1936 1 Claim.

This invention relates to miniature upright and grand pianos. The object of the invention is to provide instruments of the kind referred to the sounding properties of which are equivalent to those of the usual instruments of considerably greater size. Miniature pianos of different construction are already in use, but in these instruments, as hitherto known, the sound volume, 1. e.', the intensity of the sounds falls considerably short of that of a normal piano. For this reason up to date the miniature pianos cannot be considered as equivalent substitutes for the old-sized instruments. The term old size means upright pianos 4 ll feet high or grand pianos 5% feet long, both instruments comprising fully 7 octaves from A to A. When the instruments according to the invention are said to have equivalent sounding properties, this means that also these smaller go instruments comprise fully 7 octaves from A to A.

Part of the well-known miniature pianos which, as above explained, have not the same properties as the instruments of the old form,

25 also comprise 7 octaves, but not from A to A but perhaps from C to C. This proves that with the old constructions of these small instruments one could not find space for bass strings of the same length as the bass strings in a common-sized in- 30 strument. This explains why the miniature pianos hitherto used were considerably weaker in sound than the above-mentioned normal instrumerits.

In a miniature upright piano according to this 35 invention a stringed frame is provided in the well-known manner, and a sound intensity equal to that of a normal piano is obtained by putting in bass strings having the same or nearly the same length as in a normally sized instrument,

4 and by making the hammers touch the strings in an angular (broken) line. In a miniature grand piano the same means are employed the grand piano jutting out to the greatest extent on the right side rearwards, and being 45 .tapered towards the left-hand side- A miniature piano constructed according to my invention, when provided with bass strings of the same length as a piano about 4% feet high, is not higher than about 3 feet. The length of the 50 new grand piano is no more than 3 feet 10 inches, the bass strings having the same length as those hitherto used in a grand piano about 6 feet long.

The height of the miniature upright piano or the length of the miniature grand piano may be,

u if desired, further reduced and even longer boss strings may be employed by offsetting the broken part of the line touched by the hammers from the unbroken part thereof. Likewise it ispossible to displace the longest strings from the middle section of the stringed frame to the bass 5 section, so that in the middle section only relatively short strings are placed.

I am aware that in the so-called square pianos the line touched by the hammers has the form of a bow or angle. Hereby the advantage (which 10 could not be attained before) is that uniformly shaped action elements can be employed as in a grand piano, whereby a good1repetition is obtained nearly in the same manner as in grand pianos which repetition formerly caused great diificulties in connection with instruments of this kind. But also the well-known square pianos if equipped inthe manner described cannot compete with the normal instruments as to tonic quality and, more especially, as to sound-in- 2o tensity, for'hitherto it was impossible to procure a square piano comprising seven full octaves from A to A. By the angular touching line provided in these instruments hitherto merely a simplification of the action was attained without improving the sound qualities as is the case in an instrument constructed according to applicants invention.

The invention will now be more fully described with reference to the annexed drawings of which: Fig. 1 is a diagrammatic front view of the stringed iron frame of a miniature upright piano constructed according to the invention. This instrument has a height, for instance, of 3 feet 2 inches,-and the longest bass string has a length of 3 feet 9 inches. It comprises seven full octaves from A to A.

Fig. 2 shows a front elevation of my new miniature upright piano.

Fig. 3 is a plan view of a small grand piano 4o constructed according to the invention, the instrument comprising 7 full octaves and its length being, for instance, 3 feet 10 inches. The bass strings have the same length as those hitherto used in a grand piano having a length of about 6 feet.

Fig. 4 is a diagrammatic front view of the stringed iron frame of a miniature upright piano projections and the method of mounting the tuning-bar in the iron frame.

Fig. 8 is. a plan-view of the oblique action bar, shaped in the form of steps, with the action elements vertically screwed thereon.

Figs. 9 to 13 are detail views showing the arrangement and the performance of different elements of the action.

Fig. 14 shows in side-elevation, partly in cross-section, a key bent in a zigzag line at its rear end.

Fig. 15 shows the same key in plan-view.

Fig. 16 is a side-elevation showing a key bent at both ends in a zigzag line.

Fig. 17 shows, partly in side-elevation and partly in cross-section, a new method of supporting the keys.

Fig. 18 is a side-elevation showing in crosssection the disposition of the sounding-board in the new miniature upright piano.

Fig. 19 is a side-elevation, partly a cross-section showing the arrangement of the pedals in the new miniature upright piano.

The minature upright piano according to the invention is (see especially Fig. 2) constructed in such a manner that the iron frame 4 is mounted behind the keyboard 5. The frame 4 is provided, beside the well-known stiffening ribs, with the bass-web Ii and the treble web I. In a normal upright piano having the old form the line 2 touched by the hammers is a straight line passing bass strings 3 of the same length as in 9. normal instrument are inserted, an angular or broken touching line 2, 2' (which is known per se) being employed. Although in this case likewise bass strings as long as 3 feet 8 inches are used, the height of the instrument is reduced to 3 feet 2 inches. Furthermore in my new miniature upright piano, as shown in Figs. 1 and 2 Hie longest strings are displaced from the middle section to the bass-section, so that the treble web I can be made shorter (see the diagram Fig. 1). By this displacement of the longer bass strings the hithertorequired bass disconnections, which are not filled out in a normal instrument by the sounding-board, are done away with,

The strings are attached to the webs or the iron frame by well-known means. The keyboard of the new instrument is carried out in the normal way. As shown in Fig. 2, this miniature upright piano comprises 1 full octaves from A to A. The strings of an intermediary lengthwhich are arranged in the middle section and the short treble strings are designated by H.

Fig. 3 shows amlniature grand piano constructed according to the invention in which likewise (as in the miniature upright) base strings 3 are inserted having the same or nearly the same length as those in a 6 feet long grand piano, 9.

broken touching line 2, 2' being employed. These strings are attached to an iron frame which is mounted behind the keyboard 5 of the instru ment, and on the other hand are-attached to the bass web 6, whereas the intermediate and treble strings H are attached to the iron frame in the well-known manner. I

In this small grand piano the long treble strings which hitherto were disposed in the middle section are placed in the bass section. This displacement of the strings, especially the long bass strings, and the possibility of employing bass strings equal in length to those in a normally sized grand piano whilst reducing the length of the instrument to 3 feet 10 inches as compared with a grand piano 6 feet in length, are obtained by making the grand piano jut out at the righthand side rearwards whilst tapering the instrument at the left hand side.

This instrument comprises like a normal grand piano 7 octaves from A to A, as seen by the keyboard shown in Fig. 3. The broken touching line 2, 2' (Fig. 3) is formed in such a. manner that the oblique part 2' has been offset rearwards from the part 2 which is parallel to the keyboard. Hereby the bass strings can be arranged at a still more acute angle to the keyboad whereby the length of the instrument is further reduced and even still longer bass strings can be used if desired. Furthermore by offsetting the part 2' of the touching line I have the possibility of locating and arranging the. different parts of the elements of the action more conveniently just at the point where the touching line is broken.

correspondingly in the miniature upright piano the angular part 2 of the touching line may be disposed in an offset position relative to the horizontal part 2 of this line. Such a disposition of the touching line is diagrammatically shown in Fig. 4. Also in connection with this miniature upright piano the advantages attributed above to the small grand piano are obtained, irrespective of the touching line 2' being offset upwards or downwards.

The iron frame 4 provided with the strings l a and II has at different points extensions l2 arranged in such a manner that in addition still longer bass strings can be disposed upon the frame, At the points where the extensions I! are provided in the frame 4 the outer stays I3 of the frame l4 project over the sounding board 9 orover the normal outer contour of the frame 4.

By the above-mentioned formation of the iron frame 4 the latter is given a greater mechanical strength and especially a higher resistance to distortion, and any mechanically unfavorable bending moments are done away with or reduced to such an extent that they can practically be neglected.

The tuning bar l8 which is arranged behind the sounding board 9 is continued up to the outer contour of the instrument. Hereby I attain that a sounding board of the same size can be placed as in a normal instrument. Furthermore it then becomes possible to give the ribs arranged at the rear side of the sounding board 9, especially in the middle position, the same length as in a normal instrument or even a greater length. The angular action bar i1 is, as shown in Fig. 8 on its broken portion l1 made in the form of steps, and the different elements l8 of the action are vertically attached to, preferably screwed on this bar ll, ll. This affords, in connection with the displacement of the strings, the advantage that now the touching line which is exactly determined by well-known physical laws (the touching point is positioned at about one eighth of the whole length of the string) can be positioned at the point required by the corresponding lengths of the sounding strings.

As seen from Figs. 9 to 13, in the new miniature upright piano especially one-armed keys I! are used.- The upper part of the action, especially the hammers 20, lies above the hand-touched surface of the keyboard 5 and the lower part of the action lies below the keyboard 5. The power is transmitted to the hammers either by pressing members or by drawing members exclusively or by pressing and drawing members. Hereby an essential advantage over the hitherto known miniature pianos is obtained, viz., a normal position of the keys -(playing level) independent of the formation and disposition of the acoustic elements of the instrument, for instance, of the length of the sounding strings and the height of the sounding board.

In the action shown in Fig. 9 the force is transmitted from the key lever IE to the hammer exclusively by pressing members, i. e., by a pressing bar and a double-armed lever 22. The other parts of the action are formed by well-known elements.

In the action shown in Fig. 10 the force is transmitted to the hammer 20 likewise, over onearmed key levers I9, exclusively by pressing members, viz., by a pressing bar 21, a firmly supported double-armed lever 23 being inserted which in turn actuates the lever 22 and therewith the other parts of the action.

In the action shown in Fig. 11 the one-armed key is shaped to form an angular lever -l9 and actuates, over an articulated intermediate member 24 (having, for instance, the form of a wellknown swivel-box), a lever 22 and from here, in the well-known manner, the hammer '20.

Fig. 12 shows an action for a miniature piano in which the force exerted on the one-armed key levers I9 is transmitted by pressing members. 25

anddrawing members 26 over the further wellknown elements to the hammers 20.

In the action shown in Fig. 14 the motionof the one-armed key lever I9 is transmitted-by a pressing member 27 with the insertion of a firmly supported double lever 28 over the drawing member 29- ancl the double lever 22 to the hammer 20.

The one-armed key levers l9 are, as seen from Fig. 14, at their rear endsbent upwards. Hereby likewise a further and additional possibility is afforded to improve the position of the keyboard and to obtain a normal playing level.

Another possibility illustrated in Fig. 16 consists in bending the one-armed keys with respect to their fulcrums 36 downwards at their rear ends and upwards at their front ends. This formation of the key I9 is based upon the usual height. of the keys of about one inch. Hereby likewise a normal level of the keyboard in miniature pianos is obtained, and at the same timewhilst maintaining the low structure of a miniature piano, a normally formed action may be mounted in the instrument.

As shown by Fig. 17, the keys are further formed in such a manner that the key bottoms 3|, which hitherto were positioned at the underside of the key, are displaced to the upper edge of the keys, and the guide blocks 32, which hitherto were disposed in the upper edges of the keys, are placed at the lower edge of the keys. The keys l9 further rotate at their upper sides about the scale-beam pin 33 and are checked at the top by a pressure-receiving bar 34. This displacement of the fulcrums of the keys is very important in view of an easy play on miniature pianosprovided with half keys. We know that the half keys are held at the top by a pressure-receiving bar 34; now owing to the improved form of the keys no more friction takes place at the point where the felt of the pressure-receiving bar is disposed. In the known construction just the considerable friction occurring at this point prevents an easy return, i. e., rising of the keys. For this reason it was hitherto necessary to provide the members of the action with relativelyheavy lead weights in order to enable the keys to rise. This always resulted in a, difiicult play, as in pressing the keys down the heavy lead weights had to be lifted. All these drawbacks are now avoided.

A further improvement consists therein that the front portion 35 of the base in the miniature piano has been raised and the bottom 31 of the base rearwards inclined. The pedals 36 have been pushed back and rest below the front por- 'tion 35 whereby a convenient position of the pedals as in a normal grand piano and a'normal seat of the player before the new miniature uptially horizontal touching line, the other series extending generally diagonally and substantially from one corner to the diagonally opposite corner of the casing at substantially a right angle to the strings of the first series and having atouching line extending in a straight line diagonally of said frame, a horizontal series of keys, a two section action bar extending in a vertical plane within the casing, one section extending horizontally and generally parallel to the touching line of the first series of strings, the second section being stepped and extending generally parallel to the touching line of the second series of strings and at a considerable angle to the first section, a series of hammers positioned to en gage the strings along the two touching lines and action units therefor pivoted on said action bar, and a series ofrods of different lengths connect ing the piano keys to said action elements.

WILHELM SCI-1mm. 

